Naumann



Jan. 24, 1939. w` NAUMANN 2,144,739

REGISTERING MACHINE FOR DIFFERENT MUNEY STANDARDS Filed Aug. 18, 1934 5 Sheets-Sheet 1 Jan, 24, 1939. wfNAUMA'NN 2,144,739

REGISTERING MACHINE FOR DXFFERENT MONEY STANDARDS Filed Aug. 18, 1954 5 Sheets-Sheet 2 7g.4a A f l 1 2 3 4 s 7' Jan. 24, 1939. w. NAUMANN 2,144,739

REGISTERING IACHINE FOR DIFFERENT HONEY STANDARDS Filed Aug. 18, 1954 5 Sheets-Sheet 3 Jm 24, 1939. I w. NAUMANN 2,144,739

REGISTERING MACHINE FOR DIFFERENT MONEY STANDARDS Filed Aug.. 18. 1934 5 Sheets-Sheet 4 w. NAUMANN 2,144,739

REGISTERING MACHINE FOR DIFFERENT MONEY STANDARDS Jan. 24, 1939.

Filed Aug. 18, 1,954 5 Sheets-Sheet 5 Patented ,Jan. 1.939);

EGISTERING MACHINE FOB DIFFERENT MONEY STANDARDS Willy Naumann, Bielefeld,

.alisnvrto y Germany Anker-Werke, A. G. Bielefeld, Germany Application am 1s, im, serial Na 140.493 In Germany August 26, 1983 12 Claims.

The object of the instant invention is to provide a single registering'machine adapted to a plurality of different money standards.

The registering machines of the prior art are each adapted to a single money standard. Printing arrangements are also .known which print upon a voucher with indestructible print. The new combination disclosed herein consists in the provision oi' a machine which combines an lo apparatus for registering several money standards with a printing mechanism, which prints upon a voucher form inserted in the machine as well as upon a detail strip in indestructible impressions, The same serial numbers are printed upon the voucher and the control strip in a rmachine operation in known manner.

A registering machine vis produced by the arrangement disclosed herein which is specially applicable in the checking divisions of banks In which checks of various money standards or systems are issued, the alteration oi' which must be prevented and the summation oi which must be made according to the various money standards. Y

One particular inventive feature consists in the provision of a single setting field for the various standards. For this purpose, one or more special setting levers are provided which select the money standard which is to be registered. The amount setting mechanism of the machine is controlled by this one or more special setting levers in such a manner that only those amount setting means which may cooperate with the selected standard may be used, or at a particular setting of the 35 machine, the amount settingmeans 'can be operated only to the extent whichL the selected money standard requires. The locking arrangement operates alternatively, so that a manipulation of the setting oi' the standard lever is prevented when the amount setting means is adjusted at such a point that it cannot cooperate with a particular money standard.' Other inventive features are embraced in the constructive embodiment of the invention, of which an example is described hereinafter and illustrated in the accompanying drawings, in which,

Figure 1 shows a diagrannnatic` plan view oi the setting board of the machine,

Figure. 1a is a similar view of the setting board ofa second embodiment Voi' the invention.

Figure 2 isa side view of an individual setting lever for the money standardsl showing in addition .theuoperative elements of the printing mechanism,

(ci sas-1) Figures Sand 4 are side views of detalls of the locking mechanism,

Figure 5 shows the arrangement of the totalizers in the machine adapted to be selected for operation corresponding to the several positions 5 oi one oi the standard selecting levers,

Figure Gis a horizontal sectional view above one oi' the totalizers in Figure 5,

Figure 7 is a plan view, with parts in section,

o! a group of totalizers and their selecting mech- 10 anism for the second embodiment of the invention, shown in Pig. 1a,

Figure 'la isa side view o! the setting mechanism shown in Figure '1, and

Figure 8 is s schematic illustration of the con- 15 structive arrangement shownin Figure 7.

The setting board shown in Fig. 1 illustrates an example oi the inventive thought applied to an embodiment of a machine, which ls adapted, on the one hand, for the English money standard, 20 and on the other hand, for decimally subdivided money standards. Although the invention is shown associated with setting levers, it can be embodied as well in an arrangement o! the machine utilizing any other known form .of setting' 25 means, such as keys.

In Fig. 1, six setting levers I are provided which serve for setting the money units, such as pounds, marks, dollars, francs, guldens, etc., and two other setting levers 2 and 3 which are adapt- 30 ed to set the decimal sub-divisions of the lower units in two places as well as the shillings for the English standard. Another setting lever 4 may be set to one of eleven pomtions and effects a setting of the pence values for the English standard; another setting lever 5 effects the setting oi' the fractional values of pence, 1/4, 1/2 and 3A.

In conjunction with these setting levers I to l, which serve to set the amounts, are provided 40 three setting levers I, 'I and 8 which serve to select the desired money standard from time to time. These levers are designated hereinafter by the short term standard levers.

Each oi the levers I to l travels downward along a slot b, in the casing oi' the machine, beside which, at the various positions of adjustment oi the respective levers, are numbers representing values, or symbols representing money standards'. These numbers and symbols are enso closed in circles to diiierentiate them from reference characters.

In the event that the registering machine should operate only as a printing mechanism, the standard levers t, 1 and l may be operated 55 L infsuch a manner that a letter combination ls set up* by the control of two of the levers to register amounts in thefsevral standards, totalizers are the desired money standard. The setting of the levers controls type wheels, having types corresponding to the letter designations at the sides of the levers shown in Fig. 1, which are adjusted corresponding to the stops at which the levers are set. The combinations of letter designations indicated in Fig. 1 suffice for designating all the money standards which it v may be desired to utllize. For example, upon a setting of lever 8, to

the stop R" and lever 'l to the stop M, the German standard RM", that is.. reichsmark,

is designated. "The combination -of the lettersj "Ffs" by a setting of levers 6, l and designates the French standard of francs, the combination "Sis" designates the Swiss franc standardA and the combination Sch", standard.

The controlling arrangement for the type wheels of standard levers 'l and 8 are duplicates f of that shown in conjunction with standardlever In the event that the registering arrangement should Valso accumulate th'e various registered arrangfd in known manner described below for the setting lever 6, Whichare selected by the setting of the standard lever `uponthe, corresponding stop.

In Figs. "5. and 6 isillustrated anarrangement in whichthesettngofthefstandard lever B sellectsfone of 'twelve totalizers for operation.

in this arrangement do not affect the selection Thus, if the lever 6 is set at the pounds Setting,

the lowermosttotalizer in Fig. 511s in position for engagement kwith the ,actuating racks, 1i. If the do1lar($) setting is selected, the totalizer next to the lowestis positioned for operation. If the relchsmark moneystandard is selected; and

the lever 6 isgset to R,-the third totalizer from -v theto'pv is lpositioned 'for' engagement with the actuating racks.' The settings of levers l and 8 I exercised by the setting of leverl 6 and the-former only adjust type `wheels which cooperate with type wheels I6 set by lever 6 to completethe designation ofthe selected totallzer. Totalizers for standards which are not vsubdividedl decimally, such as for the English system'of units, incorporate tens-transfer mechanisms `which'a're adapted to 4such standards.

Y The mechanism disclosed in the U. S. Patent No. 1,279,688, September 24, 1918,Y discloses a tenstransfer mechanismy adapted to the' English money standard.

The selection of the totalizer by the controllingfstandardflever can be effected, for example,

bya segregated arrangement ofthe totalizersf such asis shown in German Patent No. 209,737,` which, furthermore, is illustrated generally. in

accompanying Figs. 5 and 6. As explained above, these totalizers are selectedv by the setting of lever 6 only.'

The totaliz'ersll are disposed vertically one above the other.l 1A^tube 42 lis `connected with d the setting lever '6A and uponI the former yare ilxed two toothed segments 43. The teeth 44 of veach one of these segments engagesV in a toothed portion 45 of a carrier 45,which is vertically shiftable by means of longitudinal slots 4l therein upon pins 48. 'I'he pins 48 are fixed upon the lateral walls 49 and 50 of the machine.r Each one oi the carriers 46 has at its upper and lower ends,

` a slide bearing 5I in which the arms 52 of throwy in members 53 are horizontally shiftable. Each one oi' the throw-inmembers 53 carries engag-V 54. f laterally kshlftable in horizontal slots 58 of the the Austrian Shilling ing lugs 54 whichv are displaced from each other in such a manner that -at the setting of the standard lever at the several stops, another pair of lugs on the same level arrives in position for operation.

The axles 55 of the totalizers 4| are disposed in frames 50 which carry pins 51. the pairs of pins 51 at Opposite ends of each totalizer being spaced from the adjacent pairsabove and below by a distance slightly greater than the kdistance between each superposed pair of engaging lugs The totalizer axles 55 and the pins 51 are side walls'49 and 50. A pin 53 of a draft rod 62' engages in a slot 6I of throw-in member 53 and the Vrod 62 yis shiftably mounted upon two lpinsj64`byWmeans of longitudinal slots 65. A

.lever BB--is pivoted upon a fixed bolt 'I2 and a roller 61- on the former engages a cam groove 68 of a disc 69 mounted upon a. shaft l0, The

shaft .llrotates one revolution in a'counterclockwise direction in Aevery machine operation for imparting an actuating movementv to the throwin member by the parts described'above. An actuating toothed bar 1I is controlled by each one .pt the amount setting levers yl-S, which, in

known manner, receives-,anV upward and 'downward movement by means of-suitable actuating mechanl sms corresponding to the'set amounts,

as is disclosed in the above-mentioned German .Patent No. 209,737. e The describedapparatus operates in the following, manner: I

Upon the setting oflever 4 in its normal position, the lowest-totalizer 4| isf'set for operation, which, according `to the arrangement `indicated in Fig. 1, `is vallotted tothe English standard.

AUpon the settingof Astandard lever C to any other stop, the toothedsegmentsy 43 and the carriers 46and throw-in members il connected thereslred pairiof engaging lugs-or-grippers 54 come responding to the setting oflever 6.

In the course of thev machine operation, the throw-in member 53 is shifted to the left by means of draft'rod land the edective pair of into the pa-thofl the pins-510ithe totalizer cor- -engaging lugs-54 carry the counting'fwheels of g the selected totalizer into operative engagement with the actuating barsVv 1I;

In view of the fact that only a single totallzer must loperate at. one time for the purpose of accumulating the amounts according to the severa-l money standards', all theV totalizers may be brought` into a single group `and may be' selected by a decimally sub-dividedsetting arrangement. "Aspecic example of `such a machine `will be described presently, with reference to'Flg. 7. In a machine of vthis kind, twosetting levers are suilicient for selecting ninety-nine' diiere'nt posil tions, since one ofthe setting 'levers may control the tens setting of thetotalizernumber and the other setting lever the units of the totalizer'number. The setting 'movement `of v both of these settlng'levers ls combined'by means of a differl"ential drive such as is known inV the setting of the printing carriage of'bookkeeping machines, as disclosed in the patent to Breitling, No. 1,750,870, June 3, 1930.` 'I'he'setting movement is used for laterally shifting the totalizer groups with respect to their differential actuators, in the form of vthe invention shown in Fig. 7, but itfmay be used to shift coupling elements, such as`159lon shaft 161 of Fig. 15 ot Bornkessel .et al.

vso

with,are raised to such an extent that the deting lever 1.

:Patent NO-lsasaG-w nglsflulgeftqod I'fhll'l ,thefi arrangement may be so.1 designed Lthat totali-:Iers,

arepr'ovidedfo'r only the mostgirnportant standv.a'rd's,` while the ,less freguentlyusedy standards .are registered onlyf an .indestructible recordin'g ofthe control fstripc, `,In such a .case there,-

I ,to the axle 8 2 vof .FIgJZ of `this application by the would be a fewer numberofctotalizers than that shown in Figs. 5 and 7 for selective operation,

valthough levers Ii, 1 and 8Wou1d eect aprinting y v.lowing lockingarrangements between the setin all cases irrespective oi whether or nota totalizer was selected.v

In Fig. 7 is illustratedan embodiment of the invention, in which twenty-nine totalizers` are embraced in a group. The/gearwheels 8| of the totalizers are sub-divided among the orders so that the units, the tens, the hundreds, etc.,v adding wheels lie adjacent each other, The totalizer Wheels 8| are rotatably arranged on a common.

axle 8 2 The aide 82 is shiftably arranged in a horizontal direction between pairs ofY rollers 83. A toothed bar 85 is rigidly connected with the axle 82 through arms, anda differential wheel 81 engages in the'teeth ,86 of bar 85...,The differential wheel 81 is mountedby means of a bolt 13 upon a toothed bar 88, which bar is shiftably guided by means of' longitudinal lslots 88 therein upon two pins 88, .and which, furthermore,

has a toothed portion 8| meshingwith a gear wheel 82. A bevel wheel 83'isrigidly connected v with gear wheel 82 and the former-cooperates with a second bevel gear 8l mounted upon a horizontal shaft 85 in bearing 86, which shaft'carries at its other end a gear wheel 81. 'I'he gear wheel 81 meshes with the gear wheel 88 mounted upon shaft 88 and gearwheel 88 meshes with gear wheel I8I, which is connected with the-set- The toothed portion |82 of a toothed is in engagement with thediierential wheel 81, which bar is shiftable upon pins |86 -bymeans of longitudinal slots |84 therein. Another toothed portion |86 of the toothed bar |83 engages with a gear wheel |81 which isrigidlyconnected with a bevel wheel I88Which in vturn meshes with a bevel wheel |88 disposed at right angles thereto. The axle II8 of thebevel wheel |89 carries at itsv other end a gear wheell III which engages with a toothed segment II2 con- I'he setting lever 8 corresponds to lever 8, shown in Figs. 1, 2 and 5 except that it has a possibility of three settings only instead of 12. In Fig. 8, the levers 6' and 1 are set for the selection of totalizer 25 for operation.

For a given movement oi' the rack bar 85 the 'rack bar |83 must move twice asfar to the left as the`rack bar 88 would have to move tothe right; consequently, for one step of the lever 6 to move the rack bar 85 ten times as farfas one step of lever 1', the rack bar |83 must be moved twenty times as far'for each step of movement of v lever 6' as rack bar 88'Is moved foreach step of Since the movement oi' as the ratio of transmission from gear I8I to gear 82. The setting movements of levers 6' and 1 combine by means of the dilierential gear 81 in such a manner that-the totalizer axle 82 is setto that' totalizer which corresponds to `the I number of the tens numeral set by lever 6' and to the units numeral set by lever 1', so that this totalizer is brought oppositeto the actuators 1|',

, into the paper.

bar los' f. whichl relmoved according tothe amount set as fshown inthe above-mentalenedf-fGermani Patent No. 289.737.; linthe case ofglateraliy shiftable coupling.` elements, according to. the Bornkessel PatentzNo. 1.896,936,vtheaxle 2-1 I shown in Ifig.

15 of .this `patent would be shifted' corresponding `ximbined movementoi levers 6' and 1'.

. type of the type wheel I6 are adapted to impress anindestructible imprint on the printing vouchers. Therefore, the typeare provided with either points which ,penetrate the paper or they are formed of small inclined striations, which are formed in the manner of knives and which press In order that impressions may be made upon a check inserted therein, as well as upon acontrol strip which is locked in the machine in indestructible type, two printing stations with printing .platens I1 and I8 are provided,

which are driven in the following manner:

The printing platens I1 and I8 are mounted upon multi-.armed levers I 28. I2I which are ro- 'tatably ,arranged`upon pins I22-and |23, respec- Atively. Two cam discs and |26 are mounted upon shaft |24, Awhich executes` a full revolution in a clockwise direction at every machine operation, having recesses |21 and |28, respectively. 'Iherollers |82 of the printing platen carriers |28 and I2I,are pressed by means of springs I3I againstthe cams |25 and |28.k Upon the rotationV of thesecam discs, the recesses |21 and -I-28 j come into eiect simultaneously and render free the rollers |32, so that the printing platens I1 and I8 are struck against the types I6 by the force of the' springs |3I.

A stop inthe form of a pin 2| is arranged upon setting segment 6 which operates in a curved .groove or recess 22 of -.al swinging member 2l,

which is fixed upon a shaft 23. A locking arm 25 (Fig. 3) is fixed upon shaft 23 adjacent eachof setting levers l andy 5,'which locking arm has a circularlyfshaped and upwardly bowed locking projection 21 as well as a locking shoulder `28. Setting levers 4 and 5 have stops in the form of pins 28 thereon, which cooperate with the locking ,members 21 and locking shoulders 28.

In the field ofthe setting lever 2, ,the shaft 23 hasxed thereon adjacent the setting lever a locking arm 26 having a downwardly directed locking projection 3| and a locking shoulder 32,

which cooperate with the stop or pin 33 fixed' upon the setting lever 2.

The mode of operation .of the described locking elements4 is as follows:

The normal position of the setting lever 6 corresponds to the English pound standard vor system. At this setting, the amount' setting levers I-5 are capable of being adjusted only so far as the requirements of the English system make it necessary. Since, as described above, the setting levers 2` and 3 serve for the setting of Shilling values, and twenty shillings make one pound, the

capacity of setting the setting lever 2 is so limited at the normal setting of the standard lever 6 by the locking shoulder 32 and locking arm 3|.. that the setting lever 2 can only be set to the 10 value: thereby, only 19 shillings may be'registered. The setting levers 4 and 5 for the registration of pence values and the fractions of pence. are on the other hand, rendered free in the normal 'position of the standard lever 6, since the pins 29 can glide over the locking surfaces 21. 'As soonf as one of the levers 4 and 5 are moved out of their normal position, the' standard lever 6 can no longer be adjusted to another position, since a rotation of vshaft 23 is prevented by the abutment of one or both of the locking surfaces 21 against y pins 29. v

On the other hand, when lthe reichsmark Stande ard, for example, is selected by means of levers 6 and l, the curved slot 22A of the swinging member 24 coacting with pin 2| on levert 'rotates shaft 23 in a clockwise direction so far that the locking shoulder 28 of the locking members 25 comes to lie in front of the pins 29gof levers 4' and 5, andthe locking shoulder 32 of the lockingV element 26 is removed froml thepath of pin 33 on the lever 2.

rendered free 'for the purpose of setting the desired tens of pfennigs. A resetting of the standard lever 6 to the English standard is not possible so long as the setting lever 2 is in a position below the tens, because the locking edge 3l prevents"a return rotation of the shaft 23 by lpin 33 abutting against it. y

It is noted that the setting levers I4 may have a special setting for the zero type apart from a normal home position. Thereby zero elimination is attained in a simple manner by the 'mere retention of the levers .in their home positions. yA particularly simple and economical construction of the apparatus is attained thereby.

Having described my invention, what I claim is: l. In a machine of the class described, setting' means foriadjusting the machine for theregistration ofdiflerent money standards, a control shaft, means whereby said control shaft is rocked by the adjustment of said setting means `to a certain position, amount setting means, lockingv Vmembers connected with said sh'a'i't adjacent par- `ticularr ones of said amount setting means used o in different ways for different money standards,

and locking elements on said particular amount setting means cooperating with said locking members for preventing a setting of said nrst-'mentioned m'eans at a predetermined setting of said particular amount setting means and for locking said particular amount setting means at a predetermined setting of said first-mentioned means.

2. In a lmachine of the class described, setting means for adjusting the machine for the registration of different money standards, a control shaft, a lever having a curved groove connected with said control shaft, a pin on said setting means engaging said groove for shifting said lever and rocking said control shaft by the Y means.

At this setting, the setting levers 4 and5 are locked, while the 'setting lever 2 isk v shaft, a lever having a curved groove connected with said control shaft, a pin onk said setting means engaging said groove 'for shifting said lever i and rocking said control shaft 'by the adjustment of said'fsetting means, amount setting means,

locl-rlng members'connected with said shaft adjacent particular ones of'sa-id amount setting means, and'locking elements on Isaid particular amount setting means Acooperating with said locking members lfor'preventinga setting of said first"- mentioned means at predetermined settings of said `particular amount setting `means and for locking said particularamount setting means at predetermined settings of'said vfirst-mentioned 4. kIn a-machine of the class described, a plurality of totalizersrespe'ctively adapted for the 'cumulation of amounts in dinerent money standards, setting means to selecta totalizerV for operation, amount setting means including elements common to` all of said money standards and elements specific to certain of said money standards, and'blocklng means operable by'said rst setting means for limiting the manipulation ot the elements of said amount setting means specific to certainfmoney vstandards to conform. to

.the selected totallzer.

`5. In a machine of fthe class described, a plurality of totalizersv respectively adapted for the cumulation of amounts in different money standards, settingmeans toy select a totalizer for operation. amount setting means including elements common to allot said money standards and elements specic tocertainof said money standards, and blocking means interposed between said first setting means and said amount setting means specific to certain money standards preventingv the setting of the former to a money lth'e'particular money standard corresponding to standard incompatible with the setting of said` amount setting means.

6. In a machine of the class described, a totalizerr for cumulating amounts in English currency, a totalizer for cumulating amounts 'in a decimal currency, amount setting means for adjusting the tens values of the decimal currency andl or theI shillings ofthe English currency, setting means for selecting oneof said totalizcrs for operation, and blocking means controlled by said last setting meansfor preventing operation ofA said amount setting means beyond its first ystep when said last setting meansk is set for English currency. v i

7. In a machine of the class described, a ttalizer for cumulating amounts in English currency, 'a totalizer for cumulating amounts in a decimalcurrency, amount setting means for ad- "justing the' tens values of the decimal currency and of the shillings of the English currency, setting xeans forselecting one of said totalizers'for operation, and vblocking means for preventing the setting ofnsad last setting means to the English standard when said amount setting means is beyond its 'first step. v o

`8. In a machine of the class described, setting means for adjusting thefmachine for cumulation of vdecimal currencies or English currency, an amountrsetting means for adjusting the tens values of the decimal currency and of the shillings ofthe English currency, a control shaft, means operated by said first setting means on the setting ofthe same to a decimalv currency vfor rocking said shaft, jan' arm adjacent said amountsetting means connected with said shaft and a stop on said amount setting means cooperable with said arm, said arm in its normal position having a locking shoulder in the path of said stop displaced from said stop only far enough to permit a unit setting of said amount setting means, said arm being raised by the rocking of said control shaft to remove said locking shoulder from the path of the stop to permit a setting of said amount setting means over its complete range.

9. In a machine of the class described, setting means for adjusting the machine for cumulation of decimal currencies or English currency, amount setting means for adjusting the tens values of the decimal currency and of the shillings of the English currency, a control shaft, means operated by said first setting means on the setting of the same to a decimal currency for rocking said shaft, an arm adjacent said amount setting means connected with said shaft and a stop on said amount setting means cooperable with said arm, said arm in its normal position having a locking shoulder in the path of said stop displaced from said stop only far enough to permit a unit setting of said amount setting means, said arm being raised by the rocking of said control shaft to remove said locking shoulder from the path of the stop to permit a setting on said amount setting means over its complete range, said arm having a locking edge cooperating With said stop at a setting of said amount setting means beyond the unit setting to block said control shaft against the backward rocking caused by the setting of said first setting means to the English currency.

10. In a machine of the class described, setting means for adjusting the machine for the registration of decimal currencies and English currency, amount setting means i'or adjusting the pence values for the English currency, a control shaft, means actuated by said nrst setting means upon the setting thereof to a decimal currency for rocking said shaft, an arm adjacent said amount setting means connected with said shaft, and a stop onY said amount setting means cooperable with said arm, said arm having a locking shoulder adapted to be raised into the path of said stop by the rocking of said control shaft, to prevent operation of said amount setting means.

1l. In a machine of the class described, setting means for adjusting the machine for the registration of decimal currencies and English currency, amount setting means for adjusting the pence values for the English currency, a con trol shaft, means actuated by said first setting means upon the setting thereof to a decimal currency for rocking said shaft, an arm adjacent said amount setting means connected with said shaft, and a stop on said amount setting means cooperable with said arm, said arm having a locking shoulder adapted to be raised into the path of said stop by the rocking of said control shaft, to prevent operation of said amount setting means, and a locking edge cooperating with said stop in the operative position of said amount setting means to prevent the setting of said rst setting means to a decimal currency.

12. A machine as described in claim 4, wherein said irst setting means are arranged in a plurality of orders, and means for imparting to said selecting means a motion corresponding to the combined settings of said first setting means.

WILLY NAUMANN. 

